S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 129

S5920Q

Manufacturer Part Number

S5920Q

Description

Manufacturer

Applied Micro Circuits Corporation

Datasheet

1.S5920Q.pdf (165 pages)

Specifications of S5920Q

Operating Temperature (min)

Operating Temperature Classification

Commercial

Operating Temperature (max)

70C

Package Type

PQFP

Rad Hardened

Lead Free Status / Rohs Status

Not Compliant

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S5920 – PCI Product: Pass-Thru Operation

Clock 3: The Add-On latches the address. Data 1 is

driven on the DQ bus as a result of the previous read.

As PTRDY# is sampled asserted, the PTBE# outputs

are updated to indicate which bytes are valid for the

second transfer. The BE[3:0]#, ADR[6:2], and

SELECT# inputs remain driven along with RD# to read

out the next data. PTRDY# remains asserted, indicat-

ing that the second transfer is complete.

Clock 4: Add-On logic uses the rising edge of this

clock to store DATA1. DATA2 is driven on the DQ bus

as a result of the previous read. As PTRDY# is sam-

pled asserted, the PTBE# outputs are updated to

indicate which bytes are valid for the third transfer.

PTRDY# remains asserted, indicating that the third

transfer is complete.

Clock 5: Add-On logic uses the rising edge of this

clock to store DATA2. PTBURST# is deasserted indi-

cating that only a single data phase remains. DATA3 is

driven on the Add-On bus. The PTBE# outputs are

updated to indicate which bytes are valid for the last

transfer. PTRDY# remains asserted, indicating that the

current transfer is complete.

Clock 6: Add-on logic uses the rising edge of this

clock to store DATA3 from the S5920. PTRDY# sam-

pled completes the last data phase. As a result, the

S5920 deasserts PTATN#, and drives DATA4 onto the

DQ bus. As the Add-on sampled PTBURST# deas-

serted and PTATN# asserted, it recognizes that the

previous read was the last one. As a result, the Add-

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On deasserts SELECT#, ADR[6:2], BE[3:0]#, RD# and

PTRDY#.

Clock 7: The Add-on logic stores DATA4 on the rising

edge of this clock. As PTATN# is deasserted, the

Pass-Thru access is complete, and the S5920 can

accept new Pass-Thru accesses starting on the next

clock. The other Pass-Thru signals can also change

state (in anticipation of a new transfer).

Figure 8 illustrates a Passive mode transfer with a

burst of five DWORDs in a PCI to Pass-Thru burst

write with PTRDY# used to insert wait states. In some

applications, Add-On logic may not be required to

transfer data on every ADCLK and can use PTRDY#

to control the data rate transfer. In this example, Add-

On logic latches data every other clock cycle. RD# is

shown deasserted when PTRDY# is deasserted, but

could remain active during the entire Add-On burst. In

this case, the DQ would not go to tri-state between

reads, and the PTBE# outputs would lose some of

their significance (as they would transition one cycle

early as a result of the “unused” read).

Clock 0: The address is recognized as a PCI write to

Pass-Thru region 0. The PCI bus write address is

stored in the Pass-Thru Address Register. The PCI

bus write data is stored in the S5920 write FIFO. Add-

On bus signals PTATN#, PTBURST#, PTNUM[1:0],

PTWR and PTBE[3:0] will update on the next rising

edge of ADCLK.

Revision 1.02 – April 12, 2007

Data Book

DS1596

129

S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 129

S5920Q

Specifications of S5920Q

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